Khaled Youssef

York University

H-index: 9

North America-Canada

About Khaled Youssef

Khaled Youssef, With an exceptional h-index of 9 and a recent h-index of 9 (since 2020), a distinguished researcher at York University, specializes in the field of Microfluidics, Droplet generation, Model organisms, Renewable energy.

His recent articles reflect a diverse array of research interests and contributions to the field:

Recent advances in biosensors for real time monitoring of pH, temperature, and oxygen in chronic wounds

Metal Microwires Functionalized with Cell-Imprinted Polymer for Capturing Bacteria in Water

Fluorescent Bacteria Detection in Water Using Cell Imprinted Polymer (CIP) Coated Microparticles in a Magnetophoretic Microfluidic Device

MOLECULARLY IMPRINTED POLYMER (MIP) COATINGS ON MICROSCALE SPHERICAL AND CYLINDRICAL SUBSTRATES

MOLECULARLY IMPRINTED POLYMER-COATED MICROWIRES FOR SENSOR APPLICATIONS AND BACTERIA DETECTION

Molecularly imprinted polymer (MIP) based core-shell microspheres for bacteria isolation

Optofluidic device for light-sheet fluorescence microscopy of C. elegans with a conventional wide-field microscope

High-speed label-free confocal microscopy of Caenorhabditis elegans with near infrared spectrally encoded confocal microscopy

Khaled Youssef Information

University	York University
Position	Post Doctoral Fellowship Mechanical Engineering
Citations(all)	346
Citations(since 2020)	296
Cited By	153
hIndex(all)	9
hIndex(since 2020)	9
i10Index(all)	9
i10Index(since 2020)	8
Email	Access Email
University Profile Page	York University
Google Scholar	View Google Scholar Profile

Khaled Youssef Skills & Research Interests

Microfluidics

Droplet generation

Model organisms

Renewable energy

Top articles of Khaled Youssef

Title	Journal	Author(s)	Publication Date
Recent advances in biosensors for real time monitoring of pH, temperature, and oxygen in chronic wounds		Khaled Youssef Asad Ullah Pouya Rezai Anwarul Hasan Alidad Amirfazli	2023/8/19
Metal Microwires Functionalized with Cell-Imprinted Polymer for Capturing Bacteria in Water	ACS Applied Polymer Materials	Shiva Akhtarian Ali Doostmohammadi Khaled Youssef Garrett Kraft Satinder Kaur Brar ...	2023/1/23
Fluorescent Bacteria Detection in Water Using Cell Imprinted Polymer (CIP) Coated Microparticles in a Magnetophoretic Microfluidic Device	Available at SSRN 4536613	Ali Doostmohammadi Khaled Youssef Shiva Akhtarian Garrett Kraft Pouya Rezai	2023
MOLECULARLY IMPRINTED POLYMER (MIP) COATINGS ON MICROSCALE SPHERICAL AND CYLINDRICAL SUBSTRATES		Shiva Akhtarian Ali Doostmohammadi Khaled Youssef Satinder Kaur Brar Garrett Kraft ...	2022
MOLECULARLY IMPRINTED POLYMER-COATED MICROWIRES FOR SENSOR APPLICATIONS AND BACTERIA DETECTION		Shiva Akhtarian Ali Doostmohammadi Khaled Youssef Daphne-Eleni Archonta Satinder Kaur Brar ...	2022
Molecularly imprinted polymer (MIP) based core-shell microspheres for bacteria isolation	Polymer	Ali Doostmohammadi Khaled Youssef Shiva Akhtarian Ehsan Tabesh Garrett Kraft ...	2022/6/3
Optofluidic device for light-sheet fluorescence microscopy of C. elegans with a conventional wide-field microscope		Mehran Behrouzi Faraz Rahimpouresfahani Khaled Youssef Pouya Rezai Nima Tabatabaei	2022/3/3
High-speed label-free confocal microscopy of Caenorhabditis elegans with near infrared spectrally encoded confocal microscopy	Biomedical Optics Express	Sadaf Rashtchian Khaled Youssef Pouya Rezai Nima Tabatabaei	2021/6/1
Microfluidic Devices for Behavioral Screening of Multiple Zebrafish Larvae: Design Investigation Process	Authorea Preprints	Arezoo Khalili Ellen van Wijngaarden Georg Zoidl Pouya Rezai	2021/2/11
Devices and applications at the micro-and nanoscale rsc. li/loc	Lab Chip	Morgan N Greenleaf Eric Nehl Gregory L Damhorst Wilbur A Lam Pengfei Zhang ...	2023
Low-cost optofluidic add-on enables rapid selective plane illumination microscopy of C. elegans with a conventional wide-field microscope	Journal of Biomedical Optics	Mehran Behrouzi Khaled Youssef Pouya Rezai Nima Tabatabaei	2021/12/1
Electric egg-laying: a new approach for regulating C. elegans egg-laying behaviour in a microchannel using electric field	Lab on a Chip	Khaled Youssef Daphne Archonta Terrance J Kubiseski Anurag Tandon Pouya Rezai	2021
Microfluidic devices to study the effect of electric fields on C. elegans and Danio rerio		Khaled Youssef Daphne Archonta Pouya Rezai	2021/1/1
Microfluidic Electric Egg-Laying Assay and Application to In-vivo Toxicity Screening of Microplastics using C. elegans	bioRxiv	Khaled Youssef Daphne Archonta Terrance J Kubiseski Anurag Tandon Pouya Rezai	2021/1/1
Microfluidic electric parallel egg-laying assay and application to in-vivo toxicity screening of microplastics using C. elegans	Science of The Total Environment	Khaled Youssef Daphne Archonta Terrance J Kubiseski Anurag Tandon Pouya Rezai	2021/8/20
Electric Egg-Laying: Effect of Electric Field in a Microchannel on C. elegans Egg-Laying Behavior	bioRxiv	Khaled Youssef Daphne Archonta Terrance J Kubiseski Anurag Tandon Pouya Rezai	2020/9/1
Parallel-Channel Electrotaxis and Neuron Screening of Caenorhabditis elegans	Micromachines	Khaled Youssef Daphne Archonta Terrance Kubiseski Anurag Tandon Pouya Rezai	2020/8
Semi-mobile C. elegans electrotaxis assay for movement screening and neural monitoring of Parkinson’s disease models	Sensors and Actuators B: Chemical	Khaled Youssef Daphne Archonta Terrance J Kubiseski Anurag Tandon Pouya Rezai	2020/8/1
Imaging of Caenorhabditis elegans by spectrally encoded confocal microscopy		Sadaf Rashtchian Khaled Youssef Nima Tabatabaei	2020/9/28